Result of GENSCAN for
pF1KE1727
GENSCAN 1.0 Date run: 6-Nov-116 Time: 14:45:08 Sequence gi568815586r:101628930_101837935 : 209006 bp : 39.64% C+G : Isochore 1 ( 0 - 43 C+G%) Parameter matrix: HumanIso.smat Predicted genes/exons: Gn.Ex Type S .Begin ...End .Len Fr Ph I/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.01 Intr + 505 615 111 2 0 95 97 123 0.973 13.33 1.02 Intr + 2642 2790 149 0 2 93 90 158 0.621 15.53 1.03 Intr + 3092 3209 118 1 1 76 107 133 0.999 13.12 1.04 Intr + 5625 5676 52 1 1 78 88 34 0.963 -0.55 1.05 Intr + 13490 13656 167 2 2 51 99 317 0.986 27.78 1.06 Intr + 15735 15867 133 1 1 73 108 148 0.999 14.08 1.07 Intr + 17834 17958 125 2 2 74 83 121 0.954 9.51 1.08 Intr + 19116 19221 106 1 1 101 54 156 0.999 11.85 1.09 Intr + 20331 20497 167 0 2 72 93 212 0.999 18.78 1.10 Intr + 22302 22464 163 1 1 49 121 187 0.999 16.21 1.11 Intr + 23749 23855 107 1 2 72 97 125 0.999 10.74 1.12 Intr + 24186 24319 134 1 2 59 76 216 0.999 16.94 1.13 Intr + 30743 30902 160 1 1 78 106 191 0.979 18.54 1.14 Intr + 32229 32333 105 1 0 101 61 98 0.991 7.67 1.15 Intr + 33429 33617 189 1 0 60 106 172 0.982 14.84 1.16 Intr + 34497 34631 135 1 0 76 100 157 0.999 15.32 1.17 Intr + 37815 37868 54 1 0 30 103 69 0.604 0.63 1.18 Intr + 38803 38970 168 2 0 51 63 265 0.993 19.30 1.19 Intr + 41392 41480 89 2 2 68 110 141 0.992 13.07 1.20 Intr + 44498 44693 196 1 1 118 74 135 0.999 13.17 1.21 Intr + 46363 46502 140 2 2 59 91 207 0.970 17.36 1.22 Intr + 48306 48465 160 2 1 101 101 112 0.992 12.44 1.23 Intr + 49173 49309 137 1 2 82 76 115 0.962 9.07 1.24 Intr + 51414 51600 187 2 1 50 86 227 0.737 17.04 1.25 Term + 56653 56753 101 2 2 115 55 0 0.144 -3.29 1.26 PlyA + 57229 57234 6 1.05 2.00 Prom + 60442 60481 40 -5.25 2.01 Init + 68933 69205 273 1 0 117 75 510 0.660 47.62 2.02 Intr + 85212 85308 97 2 1 54 99 76 0.824 3.96 2.03 Intr + 85575 85716 142 1 1 103 106 -23 0.918 -0.51 2.04 Intr + 87799 87883 85 1 1 96 51 83 0.821 4.30 2.05 Term + 88964 89062 99 1 0 34 36 135 0.735 0.05 2.06 PlyA + 90996 91001 6 1.05 3.35 PlyA - 91135 91130 6 1.05 3.34 Term - 100284 100256 29 1 2 113 44 41 0.383 -0.54 3.33 Intr - 104745 104606 140 2 2 81 21 86 0.371 0.39 3.32 Intr - 106115 105998 118 0 1 74 116 53 0.865 5.30 3.31 Intr - 108740 108612 129 0 0 64 39 115 0.408 3.95 3.30 Intr - 109023 108874 150 1 0 -14 56 210 0.247 6.81 3.29 Intr - 110807 110504 304 2 1 60 72 104 0.059 1.24 3.28 Intr - 115666 115538 129 1 0 78 75 157 0.647 13.37 3.27 Intr - 119436 119275 162 0 0 47 66 85 0.688 1.45 3.26 Intr - 119669 119615 55 1 1 114 105 -14 0.838 0.96 3.25 Intr - 124610 124443 168 1 0 125 54 144 0.967 12.84 3.24 Intr - 128728 128643 86 1 2 75 97 57 0.970 3.00 3.23 Intr - 131214 131101 114 0 0 59 119 54 0.872 5.32 3.22 Intr - 132417 132198 220 2 1 40 41 206 0.951 8.48 3.21 Intr - 132834 132635 200 0 2 79 92 105 0.948 7.23 3.20 Intr - 136375 135273 1103 2 2 101 105 636 0.988 55.28 3.19 Intr - 137365 137162 204 2 0 63 95 191 0.956 15.55 3.18 Intr - 139231 139108 124 1 1 72 95 26 0.855 0.94 3.17 Intr - 141262 141092 171 1 0 79 113 130 0.999 13.82 3.16 Intr - 141656 141477 180 2 0 39 92 224 0.921 17.04 3.15 Intr - 142212 142067 146 1 2 11 110 110 0.242 4.58 3.14 Intr - 144351 144181 171 1 0 22 55 212 0.702 10.29 3.13 Intr - 144610 144375 236 0 2 6 24 248 0.758 6.61 3.12 Intr - 147971 147866 106 0 1 95 84 21 0.304 0.75 3.11 Intr - 154044 153952 93 1 0 3 106 84 0.245 0.72 3.10 Intr - 157288 157083 206 0 2 82 95 69 0.947 4.92 3.09 Intr - 159660 159619 42 2 0 72 99 44 0.548 0.34 3.08 Intr - 161128 161009 120 0 0 33 83 188 0.069 11.49 3.07 Intr - 167833 167748 86 1 2 93 103 15 0.019 1.20 3.06 Intr - 182214 182108 107 1 2 48 75 62 0.000 -0.09 3.05 Intr - 182657 182569 89 1 2 30 74 77 0.000 -0.80 3.04 Intr - 191652 191483 170 0 2 -3 68 171 0.208 3.82 3.03 Intr - 201696 201630 67 2 1 94 105 90 0.436 9.29 3.02 Intr - 202056 201974 83 0 2 110 62 30 0.416 0.12 3.01 Intr - 205016 204923 94 1 1 105 94 17 0.301 3.05 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init - 161115 161009 107 0 2 60 83 164 0.929 12.84 S.002 Sngl + 181943 182206 264 1 0 37 41 212 0.988 6.35 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815586r:101628930_101837935|GENSCAN_predicted_peptide_1|1117_aa XWTLVETPPGEEQAKQNANSQLSILFIEKPQGGTVKVGEDITFIAKVKAEDLLRKPTIKW FKGKWMDLASKAGKHLQLKETFERHSRVYTFEMQIIKAKDNFAGNYRCEVTYKDKFDSCS FDLEVHESTGTTPNIDIRSAFKRREVKQQEEEPQVDVWELLKNAKPSEYEKIAFQYGITD LRGMLKRLKRMRREEKKSAAFAKILDPAYQVDKGGRVRFVVELADPKLEVKWYKNGQEIR PSTKYIFEHKGCQRILFINNCQMTDDSEYYVTAGDEKCSTELFVREPPIMVTKQLEDTTA YCGERVELECEVSEDDANVKWFKNGEEIIPGPKSRYRIRVEGKKHILIIEGATKADAAEY SVMTTGGQSSAKLSVDLKPLKILTPLTDQTVNLGKEICLKCEISENIPGKWTKNGLPVQE SDRLKVVHKGRIHKLVIANALTEDEGDYVFAPDAYNVTLPAKVHVIDPPKIILDGLDADN TVTVIAGNKLRLEIPISGEPPPKAMWSRGDKAIMEGSGRIRTESYPDSSTLVIDIAERDD SGVYHINLKNEAGEAHASIKVKVVDFPDPPVAPTVTEVGDDWCIMNWEPPAYDGGSPILG YFIERKKKQSSRWMRLNFDLCKETTFEPKKMIEGVAYEVRIFAVNAIGISKPSMPSRPFV PLAVTSPPTLLTVDSVTDTTVTMRWRPPDHIGAAGLDGYVLEYCFEGSTSAKQSDENGEA AYDLPAEDWIVANKDLIDKTKFTITGLPTDAKIFVRVKAVNAAGASEPKYYSQPILVKEI IEPPKIRIPRHLKQTYIRRVGEAVNLVIPFQGKPRPELTWKKDGAEIDKNQINIRNSETD TIIFIRKAERSHSGKYDLQVKVDKFVETASIDIQIIDRPGPPQIVKIEDVWGENVALTWT PPKDDGNAAITGYTIQKADKKSMEWFTVIEHYHRTSATITELVIGNEYYFRVFSENMCGL SEDATMTKESAVIARDGKIYKNPVYEDFDFSEAPMFTQPLVNTYAIAGYNATLNCSVRGN PKPKITWMKNKVAIVDDPRYRMFSNQGVCTLEIRKPSPYDGGTYCCKAVNDLGTVEIECK LEVKGGLSFCRLLLQGVPPNIIDSYLRDLHSSNPEEY >gi568815586r:101628930_101837935|GENSCAN_predicted_CDS_1|3354_bp nactggacccttgtcgaaactcctcctggggaggaacaagccaagcagaatgccaactcc cagctgtccatcttgttcattgaaaaacctcaaggaggaacagtgaaagttggtgaagat atcaccttcatagccaaagtcaaggctgaagatcttctgagaaaacccactatcaaatgg ttcaaaggaaaatggatggacctggccagcaaagccgggaagcaccttcagctgaaggaa acctttgagaggcacagtcgggtgtacacatttgagatgcagatcatcaaggccaaagat aactttgcaggaaattacagatgcgaggtcacctataaggataagtttgacagctgttca tttgatcttgaagtgcacgaatctactgggactactccaaacattgacatcagatctgct ttcaagagaagggaggtgaagcagcaggaggaagaaccccaggtggacgtatgggagttg ctgaagaacgcgaaacccagtgagtacgagaagatcgccttccagtatggaatcaccgac ctgcgcggcatgctcaagcgactcaagcgcatgcgcagagaggagaagaagagcgcagct tttgcaaaaattcttgatcctgcatatcaggttgacaaaggaggcagagtgaggtttgtt gtggagctggcagatccaaagttggaggtgaaatggtataaaaatggtcaagaaattcga cccagtaccaaatacatctttgaacacaaaggatgccagagaatcctgtttatcaataac tgtcagatgacagatgattcagagtattatgtgacagccggtgatgagaaatgttccact gagctcttcgtaagagagcctccaattatggtgaccaaacagctggaagatacaactgct tattgtggggagagagtggaattagaatgtgaggtgtctgaagatgatgccaatgtaaaa tggtttaagaatggtgaagagattatccctggtccaaaatcaagataccgaattagagtt gagggtaaaaaacacatcttgatcatagagggagcaacaaaggctgatgctgcagaatat tcagtaatgacaacaggaggacaatcatctgctaaacttagtgttgacttgaaacctctg aagattttgacacctctgactgatcagactgtaaatcttggaaaagaaatctgcctgaag tgtgaaatctctgaaaacataccaggaaaatggactaaaaatggcctacctgttcaggag agtgaccgtctaaaggtggttcacaagggaaggatccacaagttagtgatagccaatgcc ctcactgaagatgaaggtgattatgtatttgcacctgatgcctacaatgttactctgcct gccaaagttcatgttattgatcctcctaagatcatcctggatggtcttgatgctgacaac acagtgacagtgattgcaggaaacaagcttcgtcttgagatccccatcagcggagaacca cctcctaaagccatgtggagccggggagataaggctattatggaaggcagtggccggata agaacagaatcttaccctgatagcagcactctggtcattgatatagctgaaagagatgac tctggtgtttaccacatcaatctgaaaaacgaagctggagaggcacatgcaagcatcaag gttaaagttgtggacttccctgatcctccagtggcaccgactgtgacagaggtgggagat gactggtgtatcatgaactgggagcctcctgcctacgacggaggctctccaatcctagga tattttattgagaggaagaagaaacaaagctccaggtggatgaggctgaattttgatctc tgcaaagaaacaacttttgagcccaagaagatgattgaaggtgtggcctatgaggtccgc atctttgcagtcaatgccattggcatctccaagcccagtatgccctccaggccttttgtt cctttggctgtaacaagccctcctactcttctgactgtggactctgtcactgacacgact gtcacgatgaggtggcgccccccagaccacattggtgcagcaggtttagatggctatgtg ctagagtattgctttgaaggaagtacatcagcaaaacagtctgatgaaaatggggaggct gcctatgatctgccagctgaggactggatagttgcaaacaaagatctgattgacaagacg aagttcaccatcacaggtctgccaacagatgcaaagatctttgtgcgtgtgaaggctgtt aatgcagctggtgccagcgagcccaagtactattctcagcccattctcgtgaaggaaatc atagaacctccaaagattcgcattccaagacacctgaagcaaacctatatccgcagagtt ggagaagctgtcaatctggttatacctttccagggaaaaccaagaccagaattaacttgg aagaaggatggtgcagaaattgataagaatcaaataaacattcgcaactctgagactgat acaatcatatttattagaaaagcagagaggagccactctgggaaatatgatctgcaagtc aaagtggacaaattcgtggagaccgcatcaattgacatccagatcattgaccgtccaggt ccaccccaaattgtgaagattgaggatgtctggggagaaaatgtcgctctcacatggact ccaccaaaggatgatggaaatgctgctatcacaggctataccattcagaaggctgacaag aagagcatggaatggtttactgtcattgagcattatcatcgaaccagtgccaccattact gaattggtcatagggaatgaatattacttccgggtcttttctgaaaacatgtgtggcctc agtgaggatgccaccatgactaaagagagtgcagtgatcgccagggatggtaaaatctac aaaaatccagtgtatgaagactttgatttctcagaggcacccatgtttactcagcctttg gttaacacctatgccatagctggttacaatgccaccctaaactgcagtgtgagaggaaat cctaagcctaaaataacctggatgaaaaacaaagttgctattgtggatgatccaagatac aggatgttcagcaaccagggagtctgtaccctggaaattcgcaagcccagcccctatgat ggaggcacttactgctgcaaagcagtcaatgaccttgggacagtggagattgaatgcaaa ctggaggtgaaaggtgggctctccttctgcagactcctcttgcaaggcgtacctccaaac ataattgattcgtatctgcgagacttacactcaagcaatcctgaggaatactga >gi568815586r:101628930_101837935|GENSCAN_predicted_peptide_2|231_aa MAAGAGAGSAPRWLRALSEPLSAAQLRRLEEHRYSAAGVSLLEPPLQLYWTWLLQWIPLW MAPNSITLLGLAVNVVTTLVLISYCPTATEESLDAIDGKQARRTNSCSPLGELFDHGCDS LSTVFMAVGASIAARLGTYPDWFFFCSFIGMFVFYCAHWQTYVSGMLRFGKVDVTEIQIA LVIVFVLSAFGGATMWDYTLDKLMLKRNELSSHEKKLCEELMEFQEVMEEP >gi568815586r:101628930_101837935|GENSCAN_predicted_CDS_2|696_bp atggcggcaggcgccggggccgggtccgcgccgcgctggctgagggcgctgagcgagccg ctgagcgcggcgcagctgcggcgactggaggagcaccgctacagcgcggcgggcgtctcg ctgctcgagccgccgctgcagctctactggacctggctgctccagtggatcccgctctgg atggcccccaactccatcaccctgctggggctcgccgtcaacgtggtcaccacgctcgtg ctcatctcctactgtcccacggccaccgaagagtcactggatgctattgatgggaaacaa gccagaagaacaaactcttgttcccctttaggggagctctttgaccatggctgtgactct ctttccacagtatttatggcagtgggagcttcaattgccgctcgcttaggaacttatcct gactggttttttttctgctcttttattgggatgtttgtgttttattgcgctcattggcag acttatgtttcaggcatgttgagatttggaaaagtggatgtaactgaaattcagatagct ttagtgattgtctttgtgttgtctgcatttggaggagcaacaatgtgggactatacgctg gataaactaatgctaaaaagaaatgagctatcaagccatgaaaagaagttatgcgaggaa cttatggagttccaagaagttatggaggaaccttaa >gi568815586r:101628930_101837935|GENSCAN_predicted_peptide_3|1867_aa XLPDKIFPDKWDATAYFFHCSDVESLKSFPGQVALETPPPPQPPLARPDPGGAGRLAGRR YGLYVCFLGVVVTIVSAFQFGEWVEARDPAKHPIVHRTAPTTKNHPAQNVDSAEVEKSGI RRGKNGCRAVSLQDWPGTRGCANFTFAFCHDCKFSEVSQKRFLYILQNCHWLTDWGWTWL ALLHGSLILQGPASEPGCVLLKAKVVLEWSRDQYHVLFDSYRDNIAGKSFQNRLCLPMPI DVVYTWVNGTDLELLKELQQVREQMEEEQKAMREILGKNTTEPTKKSEKQLECLLTHCIK VPMLVLDPALPANITLKDLPSLYPSFHSASDIFNVAKPKNPSTNVSVVVFDSTKDGTLLT QKVTFEWKCEEGEVASNANIWGKTDLGSPRRPLPWPVALEPPRAQLSSALQILTRPRVSQ DRANTSYEIKLDTPLLRGYAKPVPGPETGLQPLSFAHCLPTLDLRKVNELRDFVKMYKQD PSILHTKEMCFLREQVESMGESYYKSEENIKELKTGSKKVEENISTDELSSEESDLEIDN EAVIEPDTDSPQEMGDGEASVALLKLNNPKDFQELNKQTKKNMTIDGKELTISPAYLLWD LSAISQSKQDEDISASRFEDNEELRYSLRSIERHAPWVRNIFIVTNGQIPSWLNLDNPRV TIVTHQDVFRNLSHLPTFSSPAIESHIHRIEGLSQKFIYLNDDVMFGKDVWPDDFYSHSK GQKVYLTWPVPNCAEGCPGSWIKDGYCDKACNNSACDWDGGDCSGNSGGSRYIAGGGGTG SIGVGQPWQFGGGINSVSYCNQGCANSWLADKFCDQACNVLSCGFDAGDCGQDHFHELYK VILLPNQTHYIIPKGECLPYFSFAEVAKRGVEGAYSDNPIIRHASIANKWKTIHLIMHSG MNATTIHFNLTFQNTNDEEFKMQITVEVDTREGPKLNSTAQKGYENLVSPITLLPEAEIL FEDIPKEKRFPKFKRHDVNSTRRAQEEVKIPLVNISLLPKDAQLSLNTLDLQLEHGDITL KGYNLSKSALLRSFLMNSQHAKIKNQAIITDETNDSLVAPQEKQVHKSILPNSLGVSERL QRLTFPAVSVKVNGHDQGQNPPLDLETTARFRVETHTQKTIGGNVTKEKPPSLIVPLESQ MTKEKKITGKEKENSRMEENAENHIGVTEVLLGRKLQHYTDSYLGFLPWEKKKYFQDLLD EEESLKTQLAYFTDSKNTGRQLKDTFADSLRYVNKILNSKFGFTSRKVPAHMPHMIDRIV MQELQDMFPEEFDKTSFHKVRHSEDMQFAFSYFYYLMSAVQPLNISQVFDEVDTDQSGVL SDREIRTLATRIHELPLSLQDLTGLEHMLINCSKMLPADITQLNNIPPTQESYYDPNLPP VTKSLVTNCKPVTDKIHKAYKDKNKYRKFVCLNDNIDHNHKDAQTVKAVLRDFYESMFPI PSQFELPREYRNRFLHMHELQECPSTPGLSSACMYTRSLLEVTIEWSFSSCHSNETYTKL TYTKKDKHLSTESFRINEWASCCKWKEIQETETGQLPGPSGRVSKQLSGRTLAFYRQGHQ GHGDDMTCSRSYNQLEEECWDYRCEPLRLAAIFDYKHLKLKNWKAPGLKCTRNPLRRPKH PGPAIWARNRPMGAEPRHPVHACALRPANQRRVRMRRDWLFSCANPSLPQKRRGEGATSV RKHLNMVSSGKKYSRKSGKPSVEDQFTRAYDFETEDKKDLSGSEEDVIEEPADTDGQLYL CFSFDPYIAVSELQKLIRQLLLLQLFPKYLIYIDINKALLAKRKRLEMYTKASLKTSNQK IEHVWKTQQDQRQKLNQEYSQQFLTLFQQWDLDMQKAEEQEEKILVGIMIRFIINQVSKY GRVGEES >gi568815586r:101628930_101837935|GENSCAN_predicted_CDS_3|5604_bp nngttgccagataaaatatttccagataaatgggatgctactgcatattttttccactgt tcagatgtggagagtttaaaatcatttccaggccaggtggcgctggagaccccgccgccg ccgcagccgcctctcgcccggccagacccgggcggcgccggccgcctcgccggccgcagg tatgggctctacgtgtgcttcttgggcgtcgttgtcaccatcgtctccgccttccagttc ggagagtgggtagaagccagggatcctgccaaacatcctatagtgcacaggacagcccct acaacaaagaatcatccagcccaaaatgtcgatagtgctgaagttgagaaatccggaatt agaaggggcaagaatggctgcagggcagttagtctacaggactggcctgggactagagga tgtgccaatttcaccttcgccttctgccatgattgtaagttttctgaggtctcccagaaa cgcttcctgtacatcctgcagaactgtcattggttaactgattggggttggacttggttg gctctgctccacgggtctctcatcctccagggaccagccagcgaacctggttgtgttctt ctcaaggcaaaggtggttctggaatggagccgagatcaataccatgttttgtttgattcc tatagagacaatattgctggaaagtcctttcagaatcggctttgtctgcccatgccgatt gacgttgtttacacctgggtgaatggcacagatcttgaactactgaaggaactacagcag gtcagagaacagatggaggaggagcagaaagcaatgagagaaatccttgggaaaaacaca acggaacctactaagaagagtgagaagcagttagagtgtttgctaacacactgcattaag gtgccaatgcttgtcctggacccagccctgccagccaacatcaccctgaaggacctgcca tctctttatccttcttttcattctgccagtgacattttcaatgttgcaaaaccaaaaaac ccttctaccaatgtctcagttgttgtttttgacagtactaaggatgggacattgctcact cagaaggtgacttttgagtggaaatgtgaagaaggtgaggtagccagcaatgcgaatatc tggggaaagactgatctgggttcccccaggaggcctttgccatggcctgtggccctggag ccacctagggctcagctcagctctgccctacagattctcactaggccacgggtatctcag gacagagccaacacaagttatgaaattaaactagacacaccccttcttcgaggttacgcc aagccagtgcctgggcctgaaactggcctgcagcccctcagcttcgcccactgccttccg accctggaccttcgcaaagtgaacgagcttcgggacttcgtgaaaatgtataagcaggat ccgagcattctgcataccaaggaaatgtgctttctgagggagcaggtggagagcatgggg gaaagctattataaatcagaagaaaatatcaaggaattaaaaacaggtagtaagaaggtg gaggaaaacataagcacagacgaactatcaagtgaggaaagtgatctagaaattgataac gaagctgtgattgaaccagacactgattcccctcaagaaatgggagatggagaggccagt gtagcgcttctaaaactgaataaccccaaggattttcaagaattgaataagcaaactaag aagaacatgaccattgatggaaaagaactgaccataagtcctgcatatttattatgggat ctgagcgccatcagccagtctaagcaggatgaagacatctctgccagtcgttttgaagat aacgaagaactgaggtactcattgcgatctatcgagaggcatgcaccatgggttcggaat attttcattgtcaccaacgggcagattccatcctggctgaaccttgacaatcctcgagtg acaatagtaacacaccaggatgtttttcgaaatttgagccacttgcctacctttagttca cctgctattgaaagtcacattcatcgcatcgaagggctgtcccagaagtttatttaccta aatgatgatgtcatgtttgggaaggatgtctggccagatgatttttacagtcactccaaa ggccagaaggtttatttgacatggcctgtgccaaactgtgccgagggctgcccaggttcc tggattaaggatggctattgtgacaaggcttgtaataattcagcctgcgattgggatggt ggggattgctctggaaacagtggagggagtcgctatattgcaggaggtggaggtactggg agtattggagttggacagccctggcagtttggtggaggaataaacagtgtctcttactgt aatcagggatgtgcgaattcctggctcgctgataagttctgtgaccaagcatgcaatgtc ttgtcctgtgggtttgatgctggcgactgtgggcaagatcattttcatgaattgtataaa gtgatccttctcccaaaccagactcactatattattccaaaaggtgaatgcctgccttat ttcagctttgcagaagtagccaaaagaggagttgaaggtgcctatagtgacaatccaata attcgacatgcttctattgccaacaagtggaaaaccatccacctcataatgcacagtgga atgaatgccaccacaatacattttaatctcacgtttcaaaatacaaacgatgaagagttc aaaatgcagataacagtggaggtggacacaagggagggaccaaaactgaattctacagcc cagaagggttacgaaaatttagttagtcccataacacttcttccagaggcggaaatcctt tttgaggatattcccaaagaaaaacgcttcccgaagtttaagagacatgatgttaactca acaaggagagcccaggaagaggtgaaaattcccctggtaaatatttcactccttccaaaa gacgcccagttgagtctcaataccttggatttgcaactggaacatggagacatcactttg aaaggatacaatttgtccaagtcagccttgctgagatcatttctgatgaactcacagcat gctaaaataaaaaatcaagctataataacagatgaaacaaatgacagtttggtggctcca caggaaaaacaggttcataaaagcatcttgccaaacagcttaggagtgtctgaaagattg cagaggttgacttttcctgcagtgagtgtaaaagtgaatggtcatgaccagggtcagaat ccacccctggacttggagaccacagcaagatttagagtggaaactcacacccaaaaaacc ataggcggaaatgtgacaaaagaaaagcccccatctctgattgttccactggaaagccag atgacaaaagaaaagaaaatcacagggaaagaaaaagagaacagtagaatggaggaaaat gctgaaaatcacataggcgttactgaagtgttacttggaagaaagctgcagcattacaca gatagttacttgggctttttgccatgggagaaaaaaaagtatttccaagatcttctcgac gaagaagagtcattgaagacacaattggcatacttcactgatagcaaaaatactgggagg caactaaaagatacatttgcagattccctcagatatgtaaataaaattctaaatagcaag tttggattcacatcgcggaaagtccctgctcacatgcctcacatgattgaccggattgtt atgcaagaactgcaagatatgttccctgaagaatttgacaagacgtcatttcacaaagtg cgccattctgaggatatgcagtttgccttctcttatttttattatctcatgagtgcagtg cagccactgaatatatctcaagtctttgatgaagttgatacagatcaatctggtgtcttg tctgacagagaaatccgaacactggctaccagaattcacgaactgccgttaagtttgcag gatttgacaggtctggaacacatgctaataaattgctcaaaaatgcttcctgctgatatc acgcagctaaataatattccaccaactcaggaatcctactatgatcccaacctgccaccg gtcactaaaagtctagtaacaaactgtaaaccagtaactgacaaaatccacaaagcatat aaggacaaaaacaaatataggaagtttgtttgcctgaatgacaacattgaccacaatcat aaagatgctcagacagtgaaggctgttctcagggacttctatgaatccatgttccccata ccttcccaatttgaactgccaagagagtatcgaaaccgtttccttcatatgcatgagctg caggaatgcccctctacacctgggctttcctctgcatgcatgtacacacgcagcctcctt gaggtgactattgagtggagcttttctagctgtcactcaaatgaaacgtacaccaagttg acttataccaagaaggacaagcacctaagtactgagagcttcaggataaatgaatgggct tcttgctgtaaatggaaggaaattcaggaaacagagactgggcagctcccaggcccttcg ggcagagtttcaaaacaactgtctggacgaacccttgctttttatcggcaaggacaccaa ggccacggggatgacatgacttgctcaaggtcttacaaccagttagaggaagagtgctgg gattacaggtgtgagccactgcgcctagctgcaattttcgattataaacatttaaaactt aaaaactggaaggcaccaggcctcaagtgtactcgcaacccgctccggcggccaaagcac cctgggccagctatttgggcgcgcaatcgccccatgggggcggagcctcgccacccagtt cacgcctgcgctctgcgtccagccaatcagcgacgtgtccggatgaggcgggactggctt ttctcctgtgcgaatcccagcttgcctcagaagcgtcgcggagaaggggccacctcagtc aggaagcatctaaatatggtgtcctccggaaaaaagtattccaggaaatctgggaagccg tctgtggaagatcagtttacgagagcctatgactttgagactgaagataagaaagatctg agtggatcagaggaagatgttattgaagaacctgctgacacggatggccagctgtacttg tgtttctcatttgatccttatattgcagtatcggagttacagaagcttattcggcaactc ttgcttttgcagttatttccaaaatatctgatatatattgacattaacaaggctcttctt gccaagagaaagagactagaaatgtataccaaggcttctctcaaaactagtaaccagaaa attgaacatgtttggaaaacacaacaagatcaaaggcagaagcttaaccaagaatattct cagcagtttctgactttgtttcagcagtgggatttagatatgcagaaagctgaggaacaa gaagaaaaaatacttgttggtatcatgattaggtttataatcaaccaagtctcaaagtat ggaagagttggagaagaatcatga